Oakland University Facilities Management Sustainability Presentation By: Siraj Khan, PE, LEED AP

1. Oakland UniversityFacilities ManagementSustainability PresentationBy: Siraj Khan, PE, LEED AP June 30th, 2011

2. What is Sustainability The United Nations definessustainabilityas “development that meets the needs of the present without compromising the ability of future generations to meet their own needs.” However, there is no one definition of sustainability. In general, sustainability is the term for all things that decrease our dependence on non-renewable energy and increase the idea of living within the means of our current environment without damaging it for the future. In short, sustaining human life on Earth. Sustainable endeavors should address the issues of ecological robustness, social equity and economic viability.

3. What is LEED Leadership in Energy and Environmental Design (LEED) is one of a few rating systems for green construction. Developed by the U.S. Green Building Council(USGBC) in 2000, provides a framework for constructing new and maintaining old structures with an approach to sustainability. LEED uses 5 categories(Sustainable Sites, Water Efficiency, Energy and Atmosphere, Materials and Resources, and Indoor Environmental Quality) to produce an overall rating that accounts for the entire building's life time.

4. What is Carbon Footprint? Carbon Footprint describes the amount of carbon emission and green house gasses that is produced by an organization, product or person. This includes vehicle emissions, production and consumption of food and other goods, and services.

5. Oakland University's Commitment to Sustainability OU leadership and management encourages environmental stewardship and sustainability at all OU’s campuses. New platinum-rated Human Health Science Building that is under construction and a new Gold-rated Engineering Center are the examples of their commitment toward sustainability at OU campus.

6. Facilities Management's Commitment to Sustainability Facilities Management office is playing a responsible role to implement sustainable best practices through various projects that the department manages from design to construction and after construction. Every day these practices are being utilized during operation and maintenance of the campus. These practices save energy, improve occupant comfort and environment, reduces carbon footprint that resulted into a better Sustainable environment and a Greener campus. Facilities Management constantly examining their activities and services in order to continually improve environmental performance, with economic viability with a sense of sustainability.

7. Green Resources USGBC – United States Green Building Council for LEED Ratings for the buildings and providing guidelines towards sustainability best practices. www.usgbc.org AASHE – Association for the advancement of sustainability in higher education, created Talloires Declaration to drive moment toward sustainability best practices on campuses. www.aashe.org ACUPCC – American College & University President’s Climate Commitment to reduce carbon footprint toward carbon neutrality www.presidentsclimatecommitment.org Energy Star – A building rating system by DOE for benchmarking of energy. www.energystar.gov

8. Contacts Terry Stollsteimer Associate VP for Facilities Management Phone: 248-370-2160 stollsteimer@oakland.edu Siraj Khan Rafi Bayrakdarian MSME, PE, LEED AP PE, CEM, LEED AP Facilities Management Facilities Management Director of Engineering Energy Manager Phone: 248-370-2161 Phone: 248-370-4990 Khan@oakland.edu Bayrakda@oakland.edu

9. LEED Checklist: New Construction

10. LEED Checklist: New Construction

11. LEED Checklist: Existing Buildings

12. LEED Checklist: Existing Buildings

13. Current Projects: Sustainability on Campus • Human Health Science Building • Hannah Hall Ventilation Improvements • Vandenberg Hall • Replacement of windows • O'Dowd Hall • Replacement of curtain wall • Improvements of mechanical systems • Central Heating Plant Improvements

14. Human Health Science Building • Currently under construction on northwest corner of the campus • LEED Platinum rated • Scheduled to be open in August, 2012

15. Human Health Science Building cont. Rarely does a building project become the talk of the town, but the $61 million structure is probably the most visible building project in OU history because of its location at the intersection of Walton and Squirrel. The four-story complex is the first academic structure built on the perimeter of the campus; it will house the School of Nursing and the School of Health Sciences. Scheduled to open in 2012, the 161,000 square foot building designed by the SmithGroup will feature a large auditorium, nine classrooms, a full health clinic, substantially improved teaching lab space, and faculty and administrative offices for the two fast-growing academic units on campus. Despite the tight budget for the project, John Harmala, senior project manager, says the classrooms will outshine anything on campus in terms of technology. Terry Stollsteimer, associate vice president for facilities management, says the building will have more gathering spaces for students than any building on campus, and the building will rely on natural light to create a calm environment.

16. Human Health Science Building cont. 2 But as important as the building is to the growth and development of the Schools of Nursing and Health Sciences, it is the environmental statement the building makes that is showering attention on OU and its environmental stewardship. “This building is a pivotal project in leading OU toward a sustainable campus,” says Amy Butler, director of the Bureau of Energy Systems for the state’s Department of Energy, Labor, and Economic Growth. The benchmark for measuring “green” buildings is a national system called LEED. When OU opens the doors in the fall of 2012, the Human Health Building will be the first LEED Platinum building in the State of Michigan. Platinum is the highest LEED ranking possible. The signature element in achieving Platinum status was a $2.7 million US Department of Energy grant to add 86 additional geothermal wells to the project, bringing the total number of wells to 256. Energy manager Jim Leidel wrote the grant for the additional wells and says the 310-foot wells allowed OU to build the Human Health Building without a cooling tower. Siraj Khan, director of engineering for OU, says the building also features a desiccant cooling system (one which uses solar power to help take

17. Human Health Science Building cont. 3 moisture out of the building) and a variable refrigerant heat pump system to improve comfort, air quality, and energy efficiency. The desiccant technology has been used successfully in Europe, but OU’s building is one of the first in the United States to take advantage of the desiccant systems. Another measure by which the building is “graded” is the percentage of waste that is recycled, either on site or elsewhere. That includes re-cycling the asphalt that was removed when the geothermal wells were drilled and the parking lot resurfaced. At this stage of the building construction project, 87% of the waste has been recycled. One other key project outside the building is the rehabilitation of the wetland areas adjacent to the building. The current wetland areas contain some invasive plants that need to be removed and replaced with native species. Stollsteimer is proud of the work his team has done on the project and notes a number of other environmentally friendly features, such as four charging stations for electric vehicles, a small locker room for students or staff who want to bike to work and take a quick shower before class, and the use of cisterns to capture water for landscape watering.

18. Hannah Hall Ventilation Improvements • Reducing the amount of exhaust air flow for labs and reducing outdoor air intake into the building during non-operational hours, resulted into energy saving.

19. Vandenberg Hall • Recently replaced the old inefficient windows with new energy efficient windows. • New windows reduces solar and thermal loads as well as infiltration of air, resulted into energy saving. (August 2011)

20. O'Dowd Hall Envelope • Facilities Management is in the process of managing a project to replace the old inefficient curtain wall. This will help eliminate air draft, moisture leakage and reduction of solar heat load in the building. This improvement will save energy as well as will improve working environment in the building.

21. O'Dowd HallImprovements of mechanical systems Upgrading of mechanical systems to save energy as well as to improve work environment.

22. Central Heating Plant Improvements • A current project is being managed for improvements of the boilers efficiency, replacing HTHW pumps and balancing of the high temperature heating hot water flows, that will be resulted into saving energy.

23. Recently Completed Projects:Sustainability on Campus • Hamlin Hall • New high efficient windows • Recommissioning • Pawley Hall • Student Recreation & Athletic Center • LED Outdoor Lighting for roadways & parking lots • Utility sub-meters for all major campus buildings

24. Hamlin Hall • Recently replaced the old inefficient windows with new energy efficient windows. • New windows will reduce solar and thermal loads as well as infiltration of air into the building, resulted into saving energy (August 2010)

25. Pawley Hall • A recommissioning project was recently completed that resulted into energy savings, translated into in a substantial reduction of utility bill. • The items commissioned were: chiller, VAV box & controls, VFD's and occupancy sensors.

26. Student Recreation and Athletic Center • A recommissioning project was recently completed that resulted into energy savings as well as saving on utility bill for the building. • The items commissioned were chiller and VAV boxes control upgrades, VFD's and occupancy sensors.

27. LED Outdoor Lighting for roadways & Parking Lots • Newly installed LED lighting will save on labor cost by out lasting regular bulbs 3 times. • Brighter lighting system will create a safe environment, will also reduce lighting pollution at night. • Will reduce energy consumption.

28. Utility Sub-Meters:Electric, Gas, and Water • Sub-meters have been installed to monitor and tracking of the building’s utilities usage. • Meters are accessible on the network, with the ability to be analyzed with utility metering software, being installed in 2012.

29. Future Projects: Sustainability on Campus • New Engineering Center ($75 Million) • Biomass Energy Plant ($32 Million) • currently on hold • Wind Turbine ($7 Million) • currently on hold • Combined Heating and Power System ($6 Million) • currently being reviewed

30. New Engineering Center • Currently under design stage • LEED Gold rated • Scheduled to be open in August, 2014 • New technology Mircoturbines will be placed to provide electric power and thermal energy for the building as well as to provide power to campus grid and high temperature heating hot water to HTHW campus loop. This highly efficient system will also reduce carbon foot print for the building. A highly efficient chilled beam system and a dedicated outdoor air system will provide comfortable work environment as well as energy saving.

31. Biomass Energy Plant • Proposed to be built south of Main Campus a biomass energy plant of 40 MMBTUH. The plant will be utilizing wood chips to produce thermal energy for the campus HTHW loop. Proposed plant will reduce carbon foot print and long-term savings for fuel bills. • (currently on hold).

32. Wind Power • Proposed to install a zero-emission (clean & renewable energy) wind power turbines of 2.1MW to provide electric power for the campus grid. • (currently on hold).

33. Central Heating Plant Combined Heat and Power System • A proposal is being prepared to replace an existing old boiler at the CHP with a combined heat and power unit (gas turbine of 4.6 MW), that will produce electric power and thermal energy as well as reduce electric power demand during peak shaving, all resulted into energy savings and savings on utility bills. • This proposed installation will also reduce carbon footprint on campus.

34. Sustainability in Action Following slides will show the implementation of the best sustainability practices in all five categories as defined by the USGBC-LEED guidelines.

35. Electric Vehicles • Facilities Management purchased two new electric vehicles in 2010 to replace gas-powered vehicles, to be used by facilities Management staff. The effort was done to reduce emissions and pollutants in the environment and save on gasoline bills.

36. Bear Bus • Free shuttle service for in and around campus to avoid traffic congestion and reduce pollution. • Two lines • On-campus • Same affect as Bike share • Off-campus • Helps students living on campus to save gas and keep their emissions down by carpooling to local hot spots.

37. Bike as an alternate mode of Transportation • Facilities Management is striving to provide convenience for the campus community by having bikes everywhere on the campus as an alternate mode of transportation to move around, in order to preserve green spaces, prevent congestion and reduce carbon footprint. • Now you can help even more by biking around campus instead of driving to the other side.

38. Bear Lake • Bear Lake is a Storm water retention pond to control storm quantity to creeks to avoid soil erosion and to have a beautiful vista for the campus community. The lake is being continuously monitored for water quality and is being treated with Eco-friendly cleaning agents that do not harm living species in the lake. • Facilities Management is viewing the lake to potentially be used as a closed loop for water-cooled chillers for nearby buildings if economically viable.

39. Storm Water Retention Ponds • In an effort to manage storm water, a pond was built for a recently constructed parking lot P-35. This will result in controlled storm water flow to the campus-wide stormwater system.

40. Land Management • Facilities Management has implemented a tree management plan for planting native trees and a campus tree protection policy that helps to make the campus look green and Eco-friendly, decreases soil erosion and control storm water run-off. • Native trees pictured above from left to right: White Oak, Sugar Maple, Locust

41. Re-Vegetation • Helps to keep ground strong after construction and reduces stormwater run-off.

42. Low Flow Fixtures • Low Flow Plumbing Fixtures are being installed in the Dormitory buildings in an effort to reduce consumption of potable water.

43. Dual Flush Toilet • Currently are being installed in the Dormitory buildings in an effort to reduce consumption of potable water.

44. Lower Pioneer Field • Well pump used for irrigation of fields. • Saves energy by pumping locally. • Saves resources by not using potable water.

45. Irrigation • Controlled by a centralized control system. • Using rain sensors to save water for irrigation.

46. Central Heating Plant Upgrade • Central Heating Plant is continuously upgraded for efficiency improvements of the systems and the generators to save energy. • Energy monitoring is continuously being done by a direct digital control (DDC) system.

47. New HVAC Technology:Police and Support Services • Using a new cutting edge technology of variable refrigerant (VRV) system to provide heating & cooling of the PSS building renovation. • Highly efficient system to reduce energy and carbon footprint.

48. Variable Frequency Drives(VFD) • Completed Installation of VFD’s for majority of fans & pumps to save energy. • Facilities Management is installing the VFD's for all remaining fans & pumps.

49. Occupancy Sensors • Shutting off indoor lights and/or shutting off air flow when the room is unoccupied to save energy. • Facilities management install occupancy sensors for all the offices and classrooms as a general practice.

50. CO2 Sensors • Saves energy by reducing air intake without scarifying air quality. • Constantly monitor air quality and if it reaches a certain CO2 threshold then it brings in fresh outside air. • Saves energy because its harder to heat/cool the outside air compared to air already in circulation. • Facilities management already installed CO2 sensors for majority of air-handling systems and in the highly populated areas such as lecture halls to reduce outdoor air intake, resulted into energy savings.